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FlexFlax Stool: Validation of Moldless Fabrication of Complex Spatial Forms of Natural Fiber-Reinforced Polymer (NFRP) Structures through an Integrative Approach of Tailored Fiber Placement and Coreless Filament Winding Techniques. Applied Sciences, (10)9:3278, May 2020. [PUMA: 2020 baszynski complex coreless costalonga cutajar dahy fabrication fiber fibre-reinforced flexflax forms hoven interactive itke moldless natural nfrp placement polymer spatial stool structure tailored validation winding]
Investigation of the Fabrication Suitability, Structural Performance, and Sustainability of Natural Fibers in Coreless Filament Winding. Materials, (15)9:3260, MDPI, May 2022. [PUMA: Filament Performance Structural gil mindermann gresser knippers 2022 Natural Fibers Fabrication Winding the itke from:petraheim of Sustainability Coreless Investigation Suitability]
Structural Optimization through biomimetic-inspired material-specific Application of plant-based Natural Fiber-Reinforced Polymer Composites (NFRP). Polymers, Basel, Dec 19, 2021. [PUMA: biomat dahy fiber natural topology 2021 reinforced carosella structure high-performance itke from:petraheim uhlig placement architectural material-appropriate grisin polymer sustainable tailored biomimetics lightweight NFRP middendorf flax design optimization composites sippach biocomposites architecture]
Towards sustainable buildings with free-form geometries: Development and Application of flexible NFRP in load-bearing structures. In M. T. H. Sultan, M. Shuky A. Majid, A. Iskandar A., M. R. M. Jamir, and N. Saba (Eds.), Biocomposite Materials: Design and Mechanical Properties Characterization, 31-43, Springer Nature, Singapore, February 2021. [PUMA: biomat load-bearing dahy development sustainable natural biocomposite nfrp free-form fibre-reinforced 2021 application geometies flexible itke material from:petraheim structures architecture]
Curved Foldable Tailored Fiber Reinforcements for Moldless Customized Bio-Composite Structures. Proof of Concept: Biomimetic NFRP Stools. Polymers, (12)9Sep 2, 2020. [PUMA: biomat dahy fiber natural stiffness carosella digital itke from:petraheim gradient fabrication placement klammer rihaczek moldless curved grisin basnak folding petrs tailored bio-composites fiber-reinforced NFRP middendorf polymers]
Natural fibres as ecologic flame retardants in green agro-plastic building products?. Internationales Symposium: naro.tech Werkstoffe aus Nachwachsende Rohstoffen, Erfurt, 2014. [PUMA: biomat dahy ecologic product natural building knippers retardant agro-plastic biobased itke from:petraheim 2014 flame architecture fibre]
Natural fibres as flame-retardants?. Bioplastics Magazine, 02:18-20, 2014. [PUMA: biomat dahy natural flame-retardant biobased itke material from:petraheim 2014 architecture fibre]
Biocomposite materials based on annual natural fibres and biopolymers – Design, fabrication and costumized applications in architecture. Construction and Building Materials, 147:212 – 220, elsevier, August 2017. [PUMA: 2017 annual application architecture based biocomposite biomat biopolymer costumized dahy design fabrication fibre from:petraheim itke material natural]
Application of äbstract formal patterns” for translating natural principles into the design of new deployable structures in architecture. In Wessex Institute of Technology (Eds.), Fourth International Conference on Design & Nature, Carvoeiro, Portugal, 2008. [PUMA: 2008 abstract application architecture biomimetics deploayble design formal from:petraheim itke knippers matini natural pattern principles structure translating]
Natural & Regenerated Cellulose Fibre-Reinforced Plastics. In nova Institut GmbH (Eds.), nova Institut GmbH (Organiser & Editor) 2012: 5th Internat. Congress 2012 on Bio-based Plastics and Composites & Industrial Biotechnology, Hürth, March 2012. [PUMA: graupner biomimetic natural fibre-reinforced 2012 plastic haag regenerated mader itke from:petraheim müssig cellulose fibre]
Biocomposites for architectural applications based on the second generation of natural annual renewable resource. SBE 16- Sustainable Built Environment Conference 2016, Hamburg, March 2016. [PUMA: based biomat dahy natural biocomposite second application generation 2016 itke from:petraheim renewable ressource annual architectural]
Towards branched supporting structures out of concrete-FRP composites inspired from natural branchings. Proceedings of the IASS Annual Symposium 2018, Boston, USA, 16-19 July 2018. [PUMA: 2018 architecture biomimetic born branched branching composite concrete concrete-frp from:petraheim frp gresser inspired itke jonas knippers möhl natural structure supporting]